Double noncovalent network chitosan/hyperbranched polyethylenimine/Fe 3+ films with high toughness and good antibacterial activity

The application of pure chitosan films is significantly limited due to their poor mechanical properties. In this study, a novel type of chitosan/hyperbranched polyethylenimine (CHP) and chitosan/hyperbranched polyethylenimine/Fe (CHPF) films with high toughness and good antibacterial activity were p...

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Veröffentlicht in:	RSC advances 2022-02, Vol.12 (9), p.5255-5264
Hauptverfasser:	Xu, Kaijie, Dai, Qingyin, Dong, Kaiqiang, Wei, Ningsi, Qin, Zhiyong
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Sprache:	eng
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container_title	RSC advances
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creator	Xu, Kaijie Dai, Qingyin Dong, Kaiqiang Wei, Ningsi Qin, Zhiyong
description	The application of pure chitosan films is significantly limited due to their poor mechanical properties. In this study, a novel type of chitosan/hyperbranched polyethylenimine (CHP) and chitosan/hyperbranched polyethylenimine/Fe (CHPF) films with high toughness and good antibacterial activity were prepared through a noncovalent crosslinking method. From the tensile test results, the strain and toughness of the CHP film increased by 798.1% and 292.3%, respectively, compared with pure chitosan film, after the addition of 20% hyperbranched polyethylenimine (HPEI). The addition of trace metal iron ions (3 mg) forms a metal coordination bond with the amine group on HPEI, as well as the hydroxyl group and amine group on chitosan, and develops a double noncovalent bond network structure with hydrogen bonding, which further enhances the mechanical tensile strength of the chitosan-based film, with an increase of 48.4%. Interestingly, HPEI and Fe can be used as switches to increase and decrease the fluorescence property of chitosan, respectively. Furthermore, the CHP and CHPF films showed good antibacterial activity against and .
doi_str_mv	10.1039/d1ra08121g
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title	Double noncovalent network chitosan/hyperbranched polyethylenimine/Fe 3+ films with high toughness and good antibacterial activity
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